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Thermoluminescence yield of neutron irradiated Gd:Mg-Doped silica glass

The thermoluminescence yield of silica glass doped with Gd2O3 and MgO is investigated as a potential material for neutron dose measurement. The dosimetric materials used herein were prepared via the sol-gel route with concentration of rare earth metal oxides varying from 1 to 10 mol%. Reactor irradi...

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Main Authors: N.T., Abahreh, Sani, S.F. A., Ismail, S.S., Fernando, Laura Elizabeht, Tamchek, N., Julia, A. K., Almugren, K.S., Nur Adilah, Roslan, A.S, Siti Shafiqah, Bradley, D.A. *
Format: Article
Published: Elsevier 2023
Subjects:
QC Physics
RA Public aspects of medicine
Online Access:http://eprints.sunway.edu.my/2236/
https://doi.org/10.1016/j.radphyschem.2022.110522
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spelling my.sunway.eprints.22362023-06-09T05:58:16Z http://eprints.sunway.edu.my/2236/ Thermoluminescence yield of neutron irradiated Gd:Mg-Doped silica glass N.T., Abahreh Sani, S.F. A. Ismail, S.S. Fernando, Laura Elizabeht Tamchek, N. Julia, A. K. Almugren, K.S. Nur Adilah, Roslan A.S, Siti Shafiqah Bradley, D.A. * QC Physics RA Public aspects of medicine The thermoluminescence yield of silica glass doped with Gd2O3 and MgO is investigated as a potential material for neutron dose measurement. The dosimetric materials used herein were prepared via the sol-gel route with concentration of rare earth metal oxides varying from 1 to 10 mol%. Reactor irradiations were made at 750 kW thermal power, producing thermal, epi-thermal and fast neutron fluxes of 5.61 × 1012, 2.51 × 1012, 2.58 × 1012 n/cm Elsevier 2023-01 Article PeerReviewed N.T., Abahreh and Sani, S.F. A. and Ismail, S.S. and Fernando, Laura Elizabeht and Tamchek, N. and Julia, A. K. and Almugren, K.S. and Nur Adilah, Roslan and A.S, Siti Shafiqah and Bradley, D.A. * (2023) Thermoluminescence yield of neutron irradiated Gd:Mg-Doped silica glass. Radiation Physics and Chemistry, 202. ISSN 0969-806X https://doi.org/10.1016/j.radphyschem.2022.110522 10.1016/j.radphyschem.2022.110522
institution Sunway University
building Sunway Campus Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Sunway University
content_source Sunway Institutional Repository
url_provider http://eprints.sunway.edu.my/
topic QC Physics
RA Public aspects of medicine
spellingShingle QC Physics
RA Public aspects of medicine
N.T., Abahreh
Sani, S.F. A.
Ismail, S.S.
Fernando, Laura Elizabeht
Tamchek, N.
Julia, A. K.
Almugren, K.S.
Nur Adilah, Roslan
A.S, Siti Shafiqah
Bradley, D.A. *
Thermoluminescence yield of neutron irradiated Gd:Mg-Doped silica glass
description The thermoluminescence yield of silica glass doped with Gd2O3 and MgO is investigated as a potential material for neutron dose measurement. The dosimetric materials used herein were prepared via the sol-gel route with concentration of rare earth metal oxides varying from 1 to 10 mol%. Reactor irradiations were made at 750 kW thermal power, producing thermal, epi-thermal and fast neutron fluxes of 5.61 × 1012, 2.51 × 1012, 2.58 × 1012 n/cm
format Article
author N.T., Abahreh
Sani, S.F. A.
Ismail, S.S.
Fernando, Laura Elizabeht
Tamchek, N.
Julia, A. K.
Almugren, K.S.
Nur Adilah, Roslan
A.S, Siti Shafiqah
Bradley, D.A. *
author_facet N.T., Abahreh
Sani, S.F. A.
Ismail, S.S.
Fernando, Laura Elizabeht
Tamchek, N.
Julia, A. K.
Almugren, K.S.
Nur Adilah, Roslan
A.S, Siti Shafiqah
Bradley, D.A. *
author_sort N.T., Abahreh
title Thermoluminescence yield of neutron irradiated Gd:Mg-Doped silica glass
title_short Thermoluminescence yield of neutron irradiated Gd:Mg-Doped silica glass
title_full Thermoluminescence yield of neutron irradiated Gd:Mg-Doped silica glass
title_fullStr Thermoluminescence yield of neutron irradiated Gd:Mg-Doped silica glass
title_full_unstemmed Thermoluminescence yield of neutron irradiated Gd:Mg-Doped silica glass
title_sort thermoluminescence yield of neutron irradiated gd:mg-doped silica glass
publisher Elsevier
publishDate 2023
url http://eprints.sunway.edu.my/2236/
https://doi.org/10.1016/j.radphyschem.2022.110522
_version_ 1769846263506796544
score 13.188404

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